KR20090010180A - Applicator, and cotainer for application substance - Google Patents

Abstract

An applicator for applying a substance, which can be repeatedly used and can be installed on various containers. The applicator (10) has an application surface (11) coming into contact with a target application surface and a support surface (13) coming into contact with fingers that are integrally formed on two, front and back sides of the applicator. The applicator (10) has an installation opening (14) that matches an opening (21) of a container (20) for receiving the application substance, a discharge opening (12) that is opened in the application surface (11), and a flow path (15) that guides the application substance from the installation opening (14) to the discharge opening (12), penetrating between the application surface (11) and the support surface (13).

Description

Applicator and Container for Coating Materials {APPLICATOR, AND COTAINER FOR APPLICATION SUBSTANCE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an applicator adapted to a fingertip when applying an applicator to skin or the like and a container for the applicator provided with such an applicator.

Conventionally, coating materials such as liquids, pastes, powders, etc., which are intended to be applied to the surface to be applied such as skin or adhesive surface, are various in cosmetics, ointments, creams, adhesives and the like. . Among them, it is necessary to apply an appropriate amount by applying a fingertip to the application target surface. Among these, for example. There are cosmetics and medicines that contain a coating material in a resin lamination tube or a metal tube, squeeze out an appropriate amount from a squeezing mouth, and apply it to the skin with a fingertip.

When applying such a coating substance with a fingertip, it is necessary to wipe or clean the substance attached to the fingertip or remaining after application. To avoid this, it is also attempted to mount and apply a finger sack on the finger. As one of such attempts, there is a technique described in Patent Document 1 below. In the technique, in the finger cover of the two-layer structure, the liquid magnetically-resistant liquid article is sealed between the two layers, and a full cap is provided on the outermost layer. Thus, when the finger cover is attached to the finger tip and the pull cap is pulled off during use, a small hole is formed, whereby the liquid or liquid article encapsulated therefrom is squeezed and can be applied.

In addition, Patent Document 2 described below discloses a method in which a cosmetic is applied to a plate-shaped coating surface that can be attached to a finger, and the resultant is pressurized.

Patent Document 1: Japanese Patent Application Laid-Open No. 7-284508

Patent Document 2: Unexamined Patent Publication No. 54-41806

In the above-described prior art, the coating material does not directly adhere to the fingertips. However, if the coating material attached to the finger cover or the application surface attached to the coating surface is exhausted, it is not reused and eventually discarded. In addition, the coating material that can be used is also limited to the one encapsulated in the finger cover or attached to the coated surface, so that the versatility is insufficient.

Accordingly, an object of the present invention is to provide an applicator of a coating material that can be repeatedly used and can be mounted on various containers.

In view of the above problems, the present invention is an applicator having an application surface in contact with a surface to be coated and a support surface in contact with a finger. And a discharge opening opening in a portion other than the supporting surface to include, and a flow passage for inducing a coating material to the discharge opening by passing between the application surface and the supporting surface from the mounting hole.

That is, the applicator according to the present invention is attached to an opening, such as a squeeze port of a container of a coating material such as cosmetics, so that it can be applied as it is. The term "coating substance" as used herein refers to a highly viscous liquid or powder such as liquids, pastes, gels, and creams that are intended to be applied to a "coated surface" which is a surface to be applied such as skin or an adhesive surface. Is a generic term, and its contents range from cosmetics, ointments, creams, adhesives and more.

As a material of an applicator, as long as it is a material used for a cosmetics container, anything can be used normally. For example, it can form by injection molding or compression molding using elastic materials, such as a silicone resin, an elastomer, and rubber | gum. Here, by using the elastic material, it is possible to press-fit it even if the shape of the mounting tool is made smaller than the container opening which is normally available, and versatility is obtained. In addition, depending on the properties of the coating material or the purpose of the coating, a metal or hard plastic may be employed as the material of the coating tool.

Moreover, the shape of a mounting opening can also be formed according to the shape of a container opening part. For example, when the container opening part is formed as a male screw, it can also be set as the female screw shape which can be fitted with this. In addition, when the mold is formed so that an undercut is formed in the mounting opening so as to undercut, the container opening can be pushed in by the elastic deformation of the undercut portion, so that it can be expected to be mounted securely.

Although the shape of an applicator may be formed so that a support surface may become flat, it is preferable that the support surface is formed in the curved surface which can accommodate the back surface of a finger according to the shape of a fingertip. Again, the coated surface may be flat, but as long as the coated surface is formed into a convex curved surface toward the surface to be coated, the coating surface can be applied smoothly. The back side of the support surface may be open when the support surface or the coated surface is formed in such a curved surface or when the support surface is formed to be flat. If the non-coccal part covering at least a part of the back surface of a finger is formed, this coating part will ensure a finger more reliably by an applicator. Moreover, even if such a covering part is not provided, if a wall part is provided in at least one part of the outer periphery of a support surface, a finger becomes stable with respect to an applicator by this wall part.

In addition, the coated surface and the support surface may be formed so as to have a front and back surface, and a structure in which the back side of the support surface does not become a coated surface (for example, a surface continuous with the surface on the back side of the support surface In the case of forming a coated surface).

       The present invention works as follows.

That is, in the state in which the applicator according to the present invention is attached to the opening of the container, the coating material extruded from the opening of the container has a flow path passing between the electric application surface and the electrical support surface from the mounting opening of the application surface. Through this, it is extruded from the discharge port of the coating surface. In this regard, the discharge port is not a coated surface in the order of the shape of the coated tool, but is not directly in contact with the surface to be coated, but may be opened in a position other than the support surface. For example, when the tip portion of the surface continuous with the coated surface is turned back, the discharge port may be provided in the portion near the tip when the portion does not directly touch the surface to be coated at the time of coating. Thus, it is possible to spread the coating material extruded from the discharge port onto the surface to be coated by aligning the fingertip with the support surface corresponding to the back side while viewing the application surface while putting the container in the palm of the hand.

The shape of the discharge port is usually assumed to be circular to elliptical, but various other types are possible. For example, the discharge port can be formed into a mold such as a rectangle, a triangle, a star, or the like. In addition, if the discharge port is formed into a wound, for example, a V-shaped cut mark, the wound portion is pushed open from the inside when extruding the coating material, but can be closed when not in use. Do. By doing in this way, especially in the case where the viscosity of a coating material is high, it can prevent that a coating material leaks out unintentionally at the time of non-use. The discharge ports may be provided alone or in plurality. Moreover, it is also possible to provide a plurality of types of discharge ports in one applicator.

It is also possible to cover the discharge port with a seal member that can be peeled off during use, and to form it so that it can be peeled off during use. By doing in this way, air can penetrate through a discharge port before starting use, and it can prevent that a coating material suffers deterioration, such as drying, by this.

In addition, it is also possible to insert a sphere into the discharge port. By doing in this way, it becomes possible to apply | coat a coating material smoothly by rotation of a sphere. Here, in the case where the applicator is formed of an electric elastic material, it is easy to press-fit a sphere having a diameter larger than the diameter of the discharge port.

It is also possible to coat the discharge port with a reticular member. By doing in this way, it becomes easy to apply | coat to a to-be-coated surface, for example, holding | maintaining coating substance, such as powder, by this network member. In addition, even when the coating material is a liquid, it can also help the application by keeping the liquid in the mesh of the network member.

In addition, the applicator according to the present invention may be formed integrally with the coating material container. That is, a coating material container having a coating portion for receiving a coating material and having a storage portion having an opening, and a coating surface having an application surface in contact with the surface to be coated and a support surface in contact with a finger, wherein the electrical applicator is mounted in accordance with the electrical opening. It is characterized by having a sphere, a discharge port opening to the electrical coating surface, and a flow path for guiding the coating material to the electrical discharge opening through the electrical mounting hole between the electrical coating surface and the electrical support surface. Here, the applicator and the coating material container may be formed integrally from the beginning, or may be formed separately by adhering separately formed ones. Again, if the openings and the electric mounting holes coinciding with the openings are formed in a shape that closely fits each other, the sealing properties of the openings and the mounting holes are improved. In addition, the coated surface and the support surface may be formed as a front and back surface, and a structure in which the back side of the support surface does not become a directly applied surface (for example, a surface continuous with the surface on the back side of the support surface is used as the coated surface). May be used).

In addition, the present invention is integrally formed with an applicator having a storage section for holding a coating material and an application surface provided on the tip side of the electrical storage section and having a coating surface in contact with the surface to be coated and a supporting surface in contact with a finger. A discharge material opening in a portion other than the electrical support surface including a; and a flow path for guiding the coating material from the electrical storage portion to the electrical discharge port through the electrical coating surface and the electrical support surface, Also good. In addition, the coating surface and the support surface may be formed so that the front and back surfaces are integral, and a structure in which the back side of the support surface does not directly become a coating surface (for example, a surface continuous with the surface of the back side of the support surface as the coated surface). It may be a case).

The present invention makes it possible to provide an applicator of a coating material which can be repeatedly used and which can be mounted on various containers.

1 is a rear lower perspective view of an applicator according to a first embodiment of the present invention.

2 is a front upper perspective view of the applicator according to the first embodiment of the present invention.

3 is a rear upper perspective view of the applicator according to the first embodiment of the present invention.

4 is a side cross-sectional view of the applicator according to the first embodiment of the present invention.

5 is a (A) side sectional view and (B) A-A sectional view of an applicator according to a second embodiment of the present invention.

It is (A) side sectional drawing and (B) B-B sectional drawing of the applicator which concerns on 3rd Embodiment of this invention.

7 is a rear lower perspective view of the applicator according to the fourth embodiment of the present invention.

8 is a front upper perspective view of the applicator according to the fourth embodiment of the present invention.

9 is a rear upper perspective view of the applicator according to the fourth embodiment of the present invention.

It is a side cross-sectional view of the applicator which concerns on 4th Embodiment of this invention.

It is (A) side sectional drawing and (B) C-C sectional drawing of the applicator which concerns on 5th Embodiment of this invention.

It is (A) side sectional drawing and (B) D-D sectional drawing of the applicator which concerns on 6th Embodiment of this invention.

13 is a (A) front upper perspective view and (B) bottom perspective view of the coating substance container which concerns on 7th Embodiment of this invention.

14 is a (A) front upper partial cross-sectional perspective view and (B) bonding perspective view of the applicator attached to the coating material container which concerns on 7th Embodiment of this invention.

15 is a (A) front upper perspective view and (B) bottom perspective view of the coating substance container which concerns on 8th Embodiment of this invention.

16 is a rear upper perspective view of the applicator according to the ninth embodiment of the present invention.

17 is a rear upper perspective view of the applicator according to the tenth embodiment of the present invention.

It is a lower perspective view of the applicator which concerns on 11th Embodiment of this invention.

It is a lower perspective view of the applicator which concerns on 12th Embodiment of this invention.

20 is a lower perspective view of an applicator according to a thirteenth embodiment of the present invention.

It is a lower perspective view of the applicator which concerns on 14th Embodiment of this invention.

22 is a rear upper perspective view of the applicator according to the fifteenth embodiment of the present invention.

It is a lower perspective view of the applicator which concerns on 11th Embodiment of this invention.

24 is a side sectional view of an applicator according to an eleventh embodiment of the present invention.

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of this invention is described, referring drawings.

(1) First embodiment

The applicator 10 which concerns on 1st Embodiment of this invention is demonstrated, referring FIG. 1 to FIG. In addition, FIG. 1 is a bottom right bottom perspective view of the applicator 10, FIG. 2 is a front right top perspective view, FIG. 3 is a back top perspective view, and FIG. 4 is a side sectional view.

As shown in FIG. 1, the applicator 10 which concerns on this embodiment becomes the application surface 11 of the convex curved surface as shown in FIG. 1, and the support surface of the concave curved surface which the upper surface side opened as shown in FIG. 13). That is, the coating surface 11 and the support surface 13 are integrated in front and back. In addition, the rear end side of the applicator 10 is formed in a unitary cylindrical shape with a hole provided in the center, as shown in FIG. This central hole is a mounting hole 14. The mounting thread 14 is engraved with a female screw. Thereby, the squeezing tool formed in the male screw shape of the container (especially tube-shaped thing) of a coating substance is pressed in and fixed to it.

Moreover, as shown in FIG. 1, the small hole is provided in the substantially center of the coating surface 11. As shown in FIG. This hole is the discharge port 12. As shown in FIG. 4, this discharge port 12 is connected via a mounting hole 14 and a flow path 15.

The applicator 10 according to the present embodiment can be formed by injection molding of a silicone resin.

The applicator 10 according to the present embodiment is used after press-fitting the squeeze port of a container of a coating material (not shown) to the mounting port 14. Therefore, when the side surface of the container is pressed, the coating material as the contents is extruded from the squeeze port, and again is squeezed out from the outlet port 12 through the flow path 15 from the mounting port 14. When the appropriate amount is squeezed out, it is possible to spread the fingertip (usually the index finger) to the support surface 13 while keeping the container in the palm without moving. At this time, since the abdominal side of the fingertip is matched with the concave curved surface of the support surface 13, the coating is smoothly performed.

(2) First embodiment

The applicator 10 which concerns on 2nd Embodiment of this invention is demonstrated, referring FIG. Moreover, FIG. 5 (A) has shown the cross-sectional side view of the applicator 10, and FIG. 5 (B) has shown the A-A cross section in 5 (A).

As for the applicator 10 which concerns on this embodiment, the lower surface side becomes the planar application surface 11, and the upper surface side also becomes the support surface 13 of a planar surface. That is, the coating surface 11 and the support surface 13 are integrated in front and back. Moreover, the periphery of the coating surface 11 has a structure which has an edge. In addition, the rear end side of the applicator 10 is formed in the unitary cylinder with a hole provided in the center. This central hole is a mounting hole 14. The mounting thread 14 is engraved with a female screw. Thereby, the squeezing tool formed in the male screw shape of the container (especially tube-shaped thing) of a coating substance is pressed in and fixed here.

Moreover, a small hole is provided in the substantially center of the coating surface 11. This hole is the discharge port 12. This discharge port 12 is connected via a mounting hole 14 and a flow path 15.

The applicator 10 according to the present embodiment can be formed by injection molding of a silicone resin.

The applicator 10 according to the present embodiment is used after press-fitting the squeeze port of a container of a coating material (not shown) to the mounting port 14. Therefore, when the side surface of the container is pressed, the coating material as the contents is extruded from the squeeze port, and again is squeezed from the outlet port 12 through the flow path 15 from the mounting port 14. When the appropriate amount is squeezed out, it is possible to spread the fingertip (usually the index finger) to the support surface 13 while keeping the container in the palm without moving. The excess coating material can be scraped off again at the edge of the periphery of the application surface 11 again.

(3) Third Embodiment

The applicator 10 which concerns on 3rd Embodiment of this invention is demonstrated, referring FIG. Moreover, FIG. 6 (A) has shown the sectional side view of the applicator 10, and FIG. 6 (B) has shown the B-B cross section in 6 (A).

As for the applicator 10 which concerns on this embodiment, the lower surface side becomes the planar application surface 11, and the upper surface side also becomes the support surface 13 of a planar surface. That is, the coating surface 11 and the support surface 13 are integrated in front and back. Moreover, the wall part 17 which encloses the circumference | surroundings of the support surface 13 in the form of a frame is also formed. Moreover, the periphery of the coating surface 11 has a structure which has an edge. Again, the rear end side of the applicator 10 is formed in a unitary cylinder provided with a hole in the center. This central hole is a mounting hole 14. The mounting thread 14 is engraved with a female screw. Thereby, the squeezing tool formed in the male screw shape of the container (especially tube-shaped thing) of a coating substance is pressed in and fixed here.

Moreover, a small hole is provided in the substantially center of the coating surface 11. This hole is the toe outlet 12. This discharge port 12 is connected via a mounting hole 14 and a flow path 15.

The applicator 10 according to the present embodiment can be formed by injection molding of a silicone resin.

The applicator 10 according to the present embodiment is used after press-fitting the squeeze port of a container of a coating material (not shown) to the mounting port 14. Therefore, when the side surface of the container is pressed, the coating material as the contents is extruded from the squeeze port, and again is squeezed from the outlet port 12 through the flow path 15 from the mounting port 14. When the appropriate amount is squeezed out, it is possible to spread the fingertip (usually the index finger) to the support surface 13 while keeping the container in the palm without moving. At this time, the periphery of the fingertip is secured by the wall part 17, and stability increases. The excess coating material can be scraped off again at the edge of the periphery of the application surface 11 again.

(4) Fourth Embodiment

The applicator 10 which concerns on 4th Embodiment of this invention is demonstrated, referring FIGS. 7-10. Moreover, FIG. 7 is a rear right bottom perspective view of the applicator 10, FIG. 8 is a front right top perspective view, FIG. 9 is a back right top perspective view, and FIG.

As shown in FIG. 7, the applicator 10 which concerns on this embodiment becomes the application surface 11 of the convex curved surface as shown in FIG. 7, and the support surface of the concave curved surface which partially opened the upper surface side as shown in FIG. It is (13). That is, the coating surface 11 and the support surface 13 are integrated in front and back. In addition, the rear end side of the applicator 10 is formed in a unitary cylindrical shape with a hole provided in the center, as shown in FIG. This central hole is a mounting hole 14. The mounting thread 14 is engraved with a female screw. Thereby, the squeezing tool formed in the male screw shape of the container (especially tube-shaped thing) of a coating substance is pressed in and fixed here. Again, in this embodiment, as shown in FIG. 8, the front end side of the support surface 13 is formed as the coating | coated part 16 which coat | covers an upper surface part in slipper shape.

The applicator 10 according to the present embodiment can be formed by injection molding of a silicone resin.

In addition, as shown in FIG. 7, a small hole is provided in substantially the center of the application surface 11. This hole is the discharge port 12. As shown in FIG. 10, this discharge port 12 is connected via a mounting hole 14 and a flow path 15.

 The applicator 10 according to the embodiment is used after press-fitting the squeeze port of a container of a coating material (not shown) to the mounting port 14. Thus, when the side of the container is pressed, the coating material as the contents is extruded from the squeeze port, and again is squeezed from the discharge port 12 through the flow path 15 from the mounting port 14. When the appropriate amount is squeezed out, it is possible to spread the fingertip (usually the index finger) to the support surface 13 while keeping the container in the palm without moving. At this time, the finger tip aligned with the support surface 13 covers the back surface with the covering part 16. This increases the stability of the fingertips.

(5) Fifth Embodiment

The applicator 10 which concerns on 5th Embodiment of this invention is demonstrated, referring FIG. Moreover, FIG. 11 (A) has shown the cross-sectional side view of the applicator 10, and FIG. 11 (B) has shown the C-C cross section in 11 (A).

As for the applicator 10 which concerns on this embodiment, the lower surface side becomes the planar application surface 11, and the upper surface side also becomes the support surface 13 of a planar surface. Moreover, the periphery of the coating surface 11 has a structure which has an edge. That is, the coating surface 11 and the support surface 13 are in front and back, and the periphery of the coating surface 11 is an angular cross section. In addition, the rear end side of the applicator 10 is formed in the unitary cylinder with a hole provided in the center. This central hole is a mounting hole 14. The mounting thread 14 is engraved with a female screw. Thereby, the squeezing tool formed in the male screw shape of the container (especially tube-shaped thing) of a coating substance is pressed in and fixed here. Again, in the present embodiment, two arched covering portions 16 are formed on the back side of the support surface 13.

Moreover, a small hole is provided in the substantially center of the coating surface 11. This hole is the discharge port 12. This discharge port 12 is connected via a mounting hole 14 and a flow path 15.

The applicator 10 according to the present embodiment can be formed by injection molding of a silicone resin.

The applicator 10 according to the present embodiment is used after press-fitting the squeeze port of a container of a coating material (not shown) to the mounting port 14. Therefore, when the side surface of the container is pressed, the coating material as the contents is extruded from the squeeze port, and again is squeezed from the outlet port 12 through the flow path 15 from the mounting port 14. When the appropriate amount is squeezed out, the fingertip (usually the index finger) can be applied to the surface to be coated, keeping the container in the palm of the hand without moving. At this time, the covering part 16 contacts the back surface of the finger tip matched with the support surface 13. By this. Fingertip stability is increased. The excess coating material can be scraped off again at the edge of the periphery of the application surface 11 again.

(6) Sixth Embodiment

The applicator 10 which concerns on 6th Embodiment of this invention is demonstrated, referring FIG. Moreover, FIG. 12 (A) has shown the side sectional drawing of the applicator 10, and FIG. 12 (B) has shown the D-D sectional drawing in FIG. 12 (A).

As for the applicator 10 which concerns on this embodiment, the lower surface side becomes the planar application surface 11, and the upper surface side also becomes the support surface 13 of a planar surface. That is, the coating surface 11 and the support surface 13 are integrated in front and back. Moreover, the rear end side of the applicator 10 is formed in the unitary cylinder shape which provided the hole in the center. This central hole is a mounting hole 14. The mounting thread 14 is engraved with a female screw. Thereby, the squeezing tool formed in the male screw shape of the container (especially tube-shaped thing) of a coating substance is pressed in and fixed here. Again, in the present embodiment, two pairs of arch-shaped covering portions 16 having no uppermost portion are formed on the back side of the support surface 13.

Moreover, a small hole is provided in the substantially center of the coating surface 11. This small hole is the discharge port 12. This discharge port 12 is connected via a mounting hole 14 and a flow path 15.

The applicator 10 according to the present embodiment can be formed by injection molding of a silicone resin.

The applicator 10 according to the present embodiment is used after press-fitting the squeeze port of a container of a coating material (not shown) to the mounting port 14. Thus, when the side of the container is pressed, the coating material as the contents is extruded from the squeeze port, and again is squeezed from the discharge port 12 through the flow path 15 from the mounting port 14. When the appropriate amount is squeezed out, it is possible to spread the fingertip (usually the index finger) to the support surface 13 while keeping the container in the palm without moving. At this time, the covering part 16 contacts the back surface of the finger tip matched with the support surface 13. This increases the stability of the fingertips.

(7) Seventh Embodiment

In the present invention, as in the seventh embodiment shown in FIG. 13, the applicator 10 can be integrally formed with the coating material container 20. Also in this embodiment, the upper surface side of the applicator 10 becomes the support surface 13 of the concave curved surface (refer FIG. 13 (A)), and the lower surface side becomes the convex curved application surface 11 provided with the discharge port. (See FIG. 13 (B)). As shown in the cross-sectional view of FIG. 14 (A), the applicator 10 is provided with a mounting tool 14 at the rear end face, and the coating material enters here. In addition, the mounting port 14 and the discharge port 12 are connected by a flow path 15. As shown in FIG. 14 (B), the applicator 10 is bonded to match the mounting tool 14 with the opening 21 at the tip portion of the coating material container 20.

When the side surface of the storage portion 22 of the coating material container 20 is pressed, the coating material as the contents is extruded, and is again squeezed out from the discharge port 12 through the flow path 15 from the mounting hole 14. When the appropriate amount is squeezed out, the fingertip (usually the index finger) can be applied to the surface to be coated, while keeping the coating material container 20 in the palm of the hand unmovable.

(8) 8th Embodiment

In the present invention, as in the eighth embodiment shown in FIG. 15, the applicator 10 can also be formed in a flat plate shape. That is, the upper surface side of the applicator 10 is formed with the support surface 13 (refer FIG. 15 (A)) slightly recessed, and the lower surface side is formed with the application surface (refer FIG. 15 (A)) slightly protruding. Moreover, the flow path 15 protrudes from the front-end | tip part of the application | coating material container 20 to the nozzle shape integrated with the lower surface side of the applicator 10, and the front end was discharge opening which opened toward the coating surface 11. As shown in FIG. It is (12).

Pressing the side of the storage portion 22 of the coating material container 20, the coating material as the contents is extruded, and is again squeezed out from the discharge port 12 through the flow path 15 from the mounting port 14. When the appropriate amount is squeezed out, the fingertip (usually the index finger) can be applied to the surface to be coated, while keeping the coating material container 20 in the palm of the hand unmovable.

(9) 9th Embodiment

The applicator 10 according to the ninth embodiment of the present invention shown in FIG. 16 is the support surface 13 in the applicator 10 (see FIG. 5) according to the second embodiment. ) Will be provided a number of small projections (30). This small protrusion 30 prevents the sliding of the finger at the time of application | coating, and application | coating becomes easy.

(10) Tenth Embodiment

The applicator 10 according to the tenth embodiment of the present invention shown in FIG. 17 is the support surface 13 in the applicator 10 (see FIG. 5) according to the second embodiment. ), A number of small ledges 31 extending in the long direction are provided. This small protrusion 31 prevents the sliding of a finger at the time of application | coating, and application | coating becomes easy.

(11) Eleventh Embodiment

The applicator 10 according to the eleventh embodiment of the present invention shown in FIG. 18 is the discharge port 12 in the applicator 10 (see FIG. 5) according to the second embodiment. Is opened on the tip surface 18 located on the tip side of the application surface 11. That is, the discharge port 12 is located in the front end surface 18 which is located closer to the front end than the position where the finger is located on the support surface 13, and does not contact the surface to be coated at the time of application. With this structure, for example, the coating material squeezed out from the discharge port 12 can be adhered to the surface to be coated, and then newly applied to the surface to be coated 11.

(12) Twelfth Embodiment

The applicator 10 according to the twelfth embodiment of the present invention shown in FIG. 19 is the discharge port 12 in the applicator 10 (see FIG. 5) according to the second embodiment. Is formed by reparation. That is, the discharge port 12 is formed by the V-shaped cut marks. This structure makes it possible to open the wound portion from the inside when extruding the coating material, but to close it when not in use.

(13) Thirteenth Embodiment

The applicator 10 according to the thirteenth embodiment of the present invention shown in FIG. 20 is the discharge port 12 in the applicator 10 (see FIG. 5) according to the second embodiment. Is coated with a peelable seal member 32 at the time of use. That is, since the discharge port 12 is covered and clogged by the seal member 32 before use, it is recommended that air enters through the discharge port 12 before the start of use, and that the coating material is deteriorated such as drying due to this. I can prevent it. And when using, when this seal member 32 is peeled off, it becomes possible to use it similarly to 2nd Embodiment.

(14) 14th Embodiment

The applicator 10 according to the fourteenth embodiment of the present invention shown in FIG. 21 is the discharge port 12 in the applicator 10 (see FIG. 5) according to the second embodiment. And its periphery is covered with a reticular member 33. By doing in this way, it becomes easy to apply | coat to a to-be-coated surface, for example, having a coating material like powder as this network member. In addition, even when the coating material is a liquid, it is easy to apply the coating by retaining the liquid in the mesh of the network member.

(15) 15th Embodiment

The applicator 10 according to the fifteenth embodiment of the present invention shown in FIG. 22 is the support surface 13 in the applicator 10 (see FIG. 5) according to the second embodiment. ), The adhesive tape 34 is affixed. By this adhesive tape 34, a finger adheres and is fixed to the support surface 13 at the time of application | coating, and it is easy to apply | coat.

(16) 16th Embodiment

The applicator 10 according to the sixteenth embodiment of the present invention shown in FIGS. 23 and 24 is a discharge port in the applicator 10 (see FIG. 5) according to the second embodiment. The sphere 35 is fitted in the (12). That is, as shown in the sectional view of FIG. 24, since the diameter of the sphere 35 is larger than the diameter of the discharge port 12, it is maintained without falling off from the discharge port 12. For example, when the applicator 10 is formed of an elastic-rich material such as a silicone resin, it is easy to insert the sphere 35 in the discharge port 12 by single deformation. The coating material is squeezed out so as to exude from the gap between the sphere 35 and the discharge port 12 when the storage part 22 (not shown) is pressed. The squeezed coating material can be spread easily and comfortably by rolling the sphere 35 on the surface to be coated.

The present invention is possible as an applicator used to apply a coating material such as cosmetics, ointment, cream, gel, adhesive, coloring, and the like contained in a squeeze container such as a laminate tube and a metal tube. Moreover, it can also be used as a container provided with such an applicator.

Claims (18)

An applicator having an application surface in contact with a surface to be coated and a support surface in contact with a finger, A mounting opening corresponding to the opening of the coating material container containing the coating material; A discharge port that opens in a place other than the electrical support surface including the electrical coating surface; An applicator characterized by having a flow passage for inducing a coating material to an electric discharge port through an electric mounting hole and between an electric application surface and an electric support surface. The method of claim 1, The at least one of the electrical coating surface and the electrical support surface is formed in planarity, The applicator characterized by the above-mentioned. The method of claim 1, An electrical support surface is an applicator, characterized in that the curved surface that can accommodate the back surface of the finger. The method of claim 1, An electric coating surface is an applicator, characterized in that formed in a convex curved surface toward the surface to be coated. The method according to claim 2, 3 or 4, An applicator, characterized in that the back side of the electrical support surface is open. The method according to claim 2, 3 or 4, An applicator according to claim 1, wherein a covering part covering at least a part of the back surface of the finger in contact with the electrical support surface is formed. The method of claim 1, An applicator, characterized in that at least part of the outer circumference of the electrical support surface is provided with a wall portion. The method of claim 1, An electric discharge port is an applicator characterized by being opened near the distal end of a point other than an electric support surface including an electric coating surface. The method of claim 1, An electric discharge port is an applicator characterized by being formed by remodeling. The method of claim 1, An electric discharge port is coated with a seal member which is peelable at the time of use. The method of claim 1, An applicator, characterized in that a sphere is sandwiched in an electrical discharge port. The method of claim 1, An electric discharge port is an applicator characterized by being covered with a mesh member. The method of claim 1, Applicator characterized in that the electrical coating surface and the electrical support surface is formed in one front and back. A storage portion for receiving the coating material and having an opening; A coating material container having a coating tool having a coating surface in contact with a surface to be coated and a supporting surface in contact with a finger, Electric applicator, Mounting holes matching the electrical openings, A discharge port that is opened in the electrical coating surface A coating material container having a flow path for inducing a coating material to an electrical discharge port by penetrating between an electrical application surface and an electrical support surface from an electrical mounting port. The method of claim 14, A coating material container, characterized in that the electrical opening and the electrical mounting hole coinciding with the opening are formed in a shape that closely fits each other. The method of claim 14, A coating material container, characterized in that the electrical coating surface and the electrical support surface is formed in one front and back. A storage unit for receiving the coating material, A coating material container provided on the distal end side of an electrical storage portion and integrally formed with an applicator having an application surface in contact with a surface to be coated and a support surface in contact with a finger, A discharge port that opens in a place other than the electrical support surface including the electrical coating surface; A coating material container, characterized in that it has a flow passage for inducing a coating material to the electrical discharge port penetrating between the electrical coating surface and the electrical support surface from the electrical storage. The method of claim 17, A coating material container, characterized in that the electrical coating surface and the electrical support surface is formed in one front and back.

Images